Recording medium with copy protection information formed in intermittent or alternate wobbled pits and apparatus and methods for forming, recording, and reproducing the recording medium

ABSTRACT

A recording medium, such as a high-density and/or read-only recording medium, such as BD-ROM, which contains copy protection information encoded in intermittent or alternate wobbled pits, and to methods and apparatuses for forming, recording, and reproducing data on the recording medium.

CROSS-REFERENCE TO RELATED APPLICATIONS

This is a divisional application of and claims priority under 35 U.S.C. §120 on U.S. application Ser. No. 10/762,516, filed Jan. 23, 2004, the entire contents of which are incorporated by reference, which claims priority of Korean Patent Application No. 2003-004487, filed on Jan. 23, 2003; Korean Patent Application No. 2003-005211, filed on Jan. 27, 2003; and Korean Patent Application No. 2003-016139, filed on Mar. 14, 2003; all of which were filed in the Korean Intellectual Property Office, the entire contents of which are hereby incorporated by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a recording medium such as BD-ROM (Blu-ray Disc ROM) which has data written in intermittent or alternate wobbled (or zigzag) pits and an apparatus and methods for forming, recording, and reproducing the recording medium.

2. Description of the Related Art

Recently, the standardization of Blu-ray Disc Rewritable (BD-RE), which is a new high-density rewritable optical disk capable of recording large capacity, high-quality video and audio data, is in progress. BD-RE related products are expected to be available on the market in the near future.

FIG. 1A depicts the structure of a BD-RE, wherein a clamping area, a burst cutting area (BCA), a transition area, a lead-in area, a data area, and lead-out area are disposed in order as shown.

As illustrated in FIG. 1B, the BCA is located in the innermost circumferential area of the BD-RE that is accessed first when the disk is loaded into a reproducing apparatus and may contain an information for the disc, such as serial number and other optional information pre-recorded by disc manufacturer.

The lead-in area may comprise several pre-assigned areas such as a first guard (Guard 1) area, a permanent information & control data (PIC) area, a second guard (Guard 2) area, a second information (Info 2) area, and an optimum power calibration (OPC) area. The Guard 1 area and the PIC area are pre-recorded areas in which some initial data is pre-recorded, whereas the other areas of the lead-in area, the data area, and the lead-out areas are all rewritable areas.

In the PIC area, important permanent disc information is encoded in a wobbled groove by high frequency modulation (HFM).

HFM Grooves may be modulated in the radial direction with a rather high bandwidth signal, to create a data channel for replicated information with sufficient capacity and data rate.

As depicted in FIG. 2, the wobble-shaped data encoding is performed by bi-phase modulation. In this modulation method, a bit with value 0 may be represented by a transition at the start of the bit cell and a bit with value 1 may be represented by a transition at the start and in the middle of the bit cell. The modulated bits may be recorded on the disc by a deviation of the groove from an average centerline as indicated in FIG. 2. The length of each bit cell may be 36 T, where T corresponds to the length of a channel bit in the rewritable data areas.

Also, a read-only Blu-ray Disk (BD-ROM) is also under development alone with the BD-RE. A BD-ROM may include an inner area, a clamping area, a transition area, an information area, and a rim area, as shown in FIG. 3.

The information area may further comprise a BCA, a lead-in zone, a data zone, a lead-out zone, and an outer zone. As in BD-RE, the BCA may contain disc important information (DII), such as a disc serial number and copy protection information (CPI). If a BD-ROM is copy protected, the DII may be required to decrypt the main data contained on the BD-ROM.

The disc information in the PIC zone may be recorded as straight pits in the same way as main data such as audio/video (A/V) streams are recorded in the data zone. The disc information may be 17PP-modulated data written in the form of an error correction code (ECC) block of size 64 KB, for example.

In this case, however, it takes some demodulation time to retrieve the disc information from the BD-ROM because the disc information may be demodulated by an RF signal detection method.

As described above, the disc information contained in the PIC area of a BD-RE may be encoded in a wobbled groove by HFM. If the disc information is recorded in the PIC zone of a BD-ROM as straight pits, an optical disk reproducing apparatus should be able to apply different detecting schemes to obtain the disc information depending on the disk type (BD-RE or BD-ROM). Unless the correct scheme is chosen, the optical disk reproducing apparatus will fail to detect the disc information. For example, if a method for detecting HFM-modulated disc information encoded in a wobbled groove of a BD-RE is applied to a BD-ROM, the optical disk reproducing apparatus will not be able to retrieve the disc information which is recorded in the PIC zone as straight pits.

In addition, if the disc important information (DII) contained in the BCA cannot be retrieved due to a read error, it is impossible to retrieve the data recorded on the disk. For example, if an error occurs while the copy protection information (CPI) is retrieved from the BCA, it may be impossible to reproduce the main data recorded in the data zone because the data cannot be decrypted.

Also, because the copy protection information (CPI) recorded on PIC area of the disk includes important data, e.g., key data to decrypt an encrypted main data recorded on the data zone, it should not be detected easily by any illegal device and copied to other recording media to protect the encrypted contents recorded on the disk. It should be only detected by a desired detection method in a legally permitted device to ensure robustness.

SUMMARY OF THE INVENTION

In exemplary embodiments, the present invention is directed to a recording medium, such as a high-density and/or read-only recording medium, such as BD-ROM, capable of rapidly detecting disc information required for reproducing the contents recorded thereon, and to methods and apparatuses for forming, recording, and reproducing data on the recording medium.

In exemplary embodiments, the present invention is directed to a recording medium, such as a high-density and/or read-only recording medium, such as BD-ROM, capable of reproducing main data even if there is a failure in reading disc important information from one or more location on the recording medium, and to methods and apparatuses for forming, recording, and reproducing data on the recording medium.

In exemplary embodiments, the present invention is directed to a recording medium, such as a high-density and/or read-only recording medium, such as BD-ROM, including decryption information for decrypting contents recorded on the recording medium in such a way that the decryption information is not copied to other recording media and/or other types of recording media, and to methods and apparatuses for forming, recording, and reproducing data on the recording medium.

In exemplary embodiments, the present invention is directed to a recording medium, such as a high-density and/or read-only recording medium, such as BD-ROM, which contains disc information encoded in wobbled pits in some sections of the recording medium, such as the PIC zone, and to methods and apparatuses for forming, recording, and reproducing data on the recording medium.

In exemplary embodiments, the present invention is directed to a recording medium, such as a high-density and/or read-only recording medium, such as BD-ROM, which contains disc important information in more than one location, for example, in the BCA and in another area other than the BCA, and to methods and apparatuses for forming, recording, and reproducing data on the recording medium.

In exemplary embodiments, the present invention is directed to a recording medium, such as a high-density and/or read-only recording medium, such as BD-ROM, which contains copy protection information encoded in wobbled pits, and to methods and apparatuses for forming, recording, and reproducing data on the recording medium.

In exemplary embodiments, the present invention is directed to a recording medium, such as a high-density and/or read-only recording medium, such as BD-ROM, which contains copy protection information encoded in intermittently formed arrays of wobbled pits in a distributed manner, and to methods and apparatuses for forming, recording, and reproducing data on the recording medium.

In exemplary embodiments, the present invention is directed to a recording medium, such as a high-density and/or read-only recording medium, such as BD-ROM, which contains pits formed along tracks, with data recorded therein, the data including copy protection information for encryption and/or decryption, wherein pits formed in some portions of the tracks are shifted from a track enter to left and/or right to thereby form intermittent or alternate wobbled pits, wherein key information for encryption and/or decryption is encoded in a deviation shape of said pits shifted from the track center, and to methods and apparatuses for forming, recording, and reproducing data on the recording medium.

In exemplary embodiments, the present invention is directed to method for forming a recording medium, such as a high-density and/or read-only recording medium, such as BD-ROM, including forming pits formed along tracks, with data recorded therein, the data including copy protection information for encryption and/or decryption, wherein pits formed in some portions of the tracks are shifted from a track center to left and/or right to thereby form intermittent or alternate wobbled pits, wherein key information for encryption and/or decryption is encoded in a deviation shape of said pits shifted from the track center.

In exemplary embodiments, the present invention is directed to method for reproducing a recording medium, such as a high-density and/or read-only recording medium, such as BD-ROM, including utilizing data recorded in pits formed along tracks, the data including copy protection information for encryption and/or decryption, wherein pits formed in some portions of the tracks are shifted from a track center to left and/or right to thereby form intermittent or alternate wobbled pits, wherein key information for encryption and/or decryption is encoded in a deviation shape of said pits shifted from the track center.

In exemplary embodiments, the present invention is directed to method for recording a recording medium, such as a high-density and/or read-only recording medium, such as BD-ROM, including recording data in pits formed along tracks, the data including copy protection information for encryption and/or decryption, wherein pits formed in some portions of the tracks are shifted from a track center to left and/or right to thereby form intermittent or alternate wobbled pits, wherein key information for encryption and/or decryption is encoded in a deviation shape of said pits shifted from the track center.

In exemplary embodiments, the present invention is directed to method for recording a recording medium, such as a high-density and/or read-only recording medium, such as BD-ROM, including utilizing pits formed along tracks, with data recorded therein, the data including copy protection information for encryption and/or decryption, wherein pits formed in some portions of the tracks are shifted from a track center to left and/or right to thereby form intermittent or alternate wobbled pits, wherein key information for encryption and/or decryption is encoded in a deviation shape of said pits shifted from the track center.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are included to provide a further understanding of the invention, illustrate exemplary embodiments of the invention, and together with the description, serve to explain the principles of the present invention.

In the drawings:

FIGS. 1A and 1B illustrate the structure of a conventional BD-RE;

FIG. 2 illustrates a high-frequency modulated (HFM) groove formed in the PIC area of a BD-RE;

FIG. 3 illustrates areas assigned to a BD-ROM;

FIGS. 4A-4F illustrate several formats of data recorded in the PIC zone of a BD-ROM in accordance with exemplary embodiments of the invention;

FIG. 5 illustrates an example in which the copy protection information is encoded in intermittently formed arrays of wobbled pits in an exemplary embodiment of the present invention;

FIG. 6 illustrates the data structure of a physical cluster of a BD-ROM in an exemplary embodiment of the present invention;

FIG. 7 illustrates information encoded in wobbled pits and a circuit for detecting the information in an exemplary embodiment of the present invention;

FIG. 8 illustrates information encoded in straight pits and a circuit for detecting the information in an exemplary embodiment of the present invention;

FIG. 9 illustrates disc information fields recorded on a BD-ROM in an exemplary embodiment of the present invention;

FIG. 10 illustrates disc type information recorded in the BCA in accordance with an exemplary embodiment of the invention; and

FIG. 11 illustrates a schematic diagram of an optical disk reproducing apparatus capable of reproducing a BD-ROM in accordance with an exemplary embodiment of the present invention.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

In order that the invention may be fully understood, exemplary embodiments thereof will now be described with reference to the accompanying drawings.

The BD-ROM in accordance with exemplary embodiments of the invention may include an inner area, a clamping area, a transition area, an information area, and a rim area, as described above with reference to FIG. 3. As illustrated in FIG. 4A, the DII, such as a disc serial number and copy protection information recorded in the BCA, is copied to the PIC zone contained in the information area at least once. The copy protection information can be a key value required to decrypt the encrypted main data of A/V streams recorded in the data zone.

The copy protection information may not be recorded in the BCA and be only recorded in the PIC zone, which is illustrated in FIG. 4B. The copy protection information may also be called a ‘ROM mark’ and may contain an additional flag (CPI flag) indicating whether the copy protection information is recorded.

As depicted in FIG. 4C, the information contained in the PIC may be recorded partly as wobbled pits (or zigzag pits) and partly as straight pits. The main data may be recorded in the data zone as straight pits.

In an exemplary embodiment, the PIC zone may contain 2,720 clusters of data. The first cluster may contain disc information recorded as wobbled pits by bi-phase modulation. The other clusters may contain 17PP modulated disc information and copy protection information having ECC blocks of size 64 KB and recorded as straight pits. For example, the disc information recorded as wobbled pits may be detected by a push-pull signal detecting method and the disc information and copy protection information recorded as straight pits may be detected by an RF signal detecting method. The push-pull signal typically has lower frequency components than the RF signal.

In an exemplary embodiment, the DII additionally copied to the PIC zone can be encoded in wobbled pits to prevent it from being detected by the RF signal detecting method.

FIGS. 4D, 4E, and 4F illustrate several different exemplary data formats. In FIG. 4D, the DII is encoded in wobbled pits and disc information is recorded as straight pits. In FIG. 4E, the DII and a part of the disc information are encoded in wobbled pits. In FIG. 4F, both of the DII and disc information are encoded in wobbled pits.

The copy protection information, in one example, the ROM mark, may be encoded in intermittently formed wobbled pits to prevent it from being, easily detected by common detecting methods, while the data recorded on the data zone is formed of straight pit.

FIG. 5 illustrates an exemplary embodiment of the present invention, where the copy protection information is encoded in intermittently formed arrays of wobbled pits.

As shown in FIG. 5, it is preferable that an intermittent wobble structure is recorded on the area instead of a continuous wobble pit structure in order to ensure secrecy and/or robustness, such that it prevents copy protection information from being easily detected by common detecting methods.

In FIG. 5, arrays of straight pits (An) and arrays of wobbled pits (Bn) are formed alternately and the arrays of straight pits are of a longer length than the arrays of wobbled pits so as to have different durations. Consequently, the wobbled pits in which the copy protection information is encoded are considered noise signals by common detecting methods.

All of the arrays of straight pits can be made to have the same length and all of the arrays of wobbled pits can be made to have the same length. If the arrays of pits are of different length, that is, if An≠Am (n≠m) and Bn≠Bm (n≠m), the occurrence of the arrays of wobbled pits is not periodic. This can enhance the security of the copy protection information in that the probability that special information is encoded in wobbled pits becomes lower.

There are various other modulation methods that can be employed to encode the copy protection information in wobbled pits. Analog modulation methods include amplitude modulation (AM), frequency modulation (FM) and digital modulation methods include pulse code modulation (PCM), minimum shift keying (MSK), and binary phase shift keying (BPSK).

Although the same modulation technique can be applied to all arrays of wobbled pits, arrays of wobbled pits can be encoded by different modulation techniques to enhance the security of the copy protection information. In FIG. 5, for example, the first wobbled-pit array, B1, may be encoded by AM and the second wobbled-pit array, B2, may be encoded by FM, etc.

To decrease possible data read errors, in an exemplary embodiment, the same data is repeatedly encoded in arrays of wobbled pits.

A region of wobble pits and a region of no wobble pits may be combined or a plurality of regions may be combined and then a bit for copy protection can be detected. For example, a recording region of wobble pits corresponding to the data bit may be recorded in several regions, and the wobble pits are formed such that the amplitude of wobble is small, and then the bit can be detected by detecting a push-pull signal of low level and integrating the signal.

In an exemplary embodiment, the copy protection information has a size of no more than 128 bits, but if header information and redundant data for ECC are appended, the size can increase up to 1 KB.

As shown in FIG. 6, a physical cluster of the BD-ROM may have an exemplary size of 64 KB and includes 16 address units. Each address unit may further include 31 data frames. As a result, if the first data frame (Data Frame #0) of each address unit is encoded in wobbled pits to record a byte of the copy protection information, a physical cluster can store up to 16 bytes.

Hence, the copy protection information of size 1 KB can be contained in 64 clusters. If an exemplary PIC zone may include 2,720 clusters, the PIC zone will have enough space to store the copy protection information at least one. Further, the copy protection information can be recorded in the PIC zone more than once to enhance reliability of the recorded data.

In other exemplary embodiments, it is also possible to form data frames other than the first data frame of each address unit as wobbled pits or more than two data frames of each address unit as wobbled pits to encode the copy protection information.

Instead of encoding the copy protection information in a fixed data frame within each address unit, the information can also be encoded in an arbitrary data frame within each address unit. In this exemplary embodiment, the occurrence of low-frequency signals created by the wobbled pits is not of periodic nature and thus it can enhance the information security as described above.

The copy protection information can also be recorded as straight pits. In this exemplary embodiment, the copy protection information can be encrypted before being recorded and a key value to decrypt the encrypted copy protection information can be encoded in wobbled pits, thereby preventing illegal copying of the contents.

FIG. 7 illustrates the disc information encoded in wobbled pits by bi-phase modulation and a circuit for detecting the information, wherein an exemplary value of ‘0101’ is encoded in bi-phase modulated form, e.g., bi-phase modulated HFM Groove, along with wobbled pits. In this example, a data bit is recorded as marks and spaces of length 36 T including six 3 T marks. Six pits representing ‘1’ and six pits representing ‘0’ are shifted from the track center in the opposite directions.

As shown in FIG. 7, the structure by bi-phase modulation is different from the structure illustrated in FIG. 2. That is, the method of FIG. 2 has a bit with value 0, which is represented by a transition at the start of the bit cell and a bit with value 1, which is represented by a transition at the start and in the middle of the bit cell. Otherwise, the method of FIG. 7 has a bit with value 0, which is represented by a transition at the start of low and in the middle of high, and a bit with value 1, which is represented by the transition in the opposite direction. The combination of bits consists of data to detect information recorded as wobbled pit. The information can be copy protection information, i.e., key data to decrypt main data recorded on the data zone of the recording medium as shown in FIG. 4A to 4F.

That is, the wobbled pit data can be reproduced or detected only when the bi-phased modulation data modulated by HFM is detected or reproduced normally. And also, reproduction or decryption of main data is possible only when the wobbled pit data for copy protection is reproduced or detected using the normally detected or reproduced bi-phase modulation data.

If the information is encoded in pits, the occurrence of successive pits of the same length may not be allowed and thus pits of different lengths appear one after another. In this exemplary embodiment, the positions of data pits may also be shifted at intervals of 18 T to encode data in wobbled pits.

The laser beam reflected by the wobbled pits is converted into electric signals by photodetectors 13-16.

The electric signals may be amplified by a push-pull detecting circuit, wherein Ea+Eb and Ec+Ed are amplified separately by amplifiers 10 and 11 and then the difference signal ((Ea+Eb)−(Ec+Ed)) between the two amplified signals is generated by a differential amplifier 12. The data encoded in the wobbled pits is obtained by comparing the difference signal 501 with a threshold level.

Similarly, the DII and/or disc information (or other information) encoded in wobbled pits can be obtained by a push-pull circuit that is used to create the tracking error signal, with no additional error correction and demodulation processes.

If an error due to scratches or other disc deformities occurs when accessing the BCA of a BD-ROM, the DII can be retrieved from the PIC zone and data recorded on the disc can be reproduced using the retrieved information. As a result, the main data recorded in the data zone may be decrypted using a decryption key contained in the DII recorded in the PIC zone.

Since the data encoded in wobbled pits, for example, DII and/or disc information, is not obtained by demodulation, it is not copied when the contents of the BD-ROM is copied to another rewritable medium and therefore the encrypted data copied to the rewritable medium cannot be decrypted, thereby preventing illegal copying of the BD-ROM contents.

The disc information and copy protection information encoded in straight pits as shown in FIGS. 4C-4E may be detected by the circuit depicted in FIG. 8.

The laser beam reflected by the straight pits is converted into electric signals by photodetectors 13-16 and the electric signals (Ea, Eb, Ec, and Ed) are added together with amplification by one or more summing amplifiers 20, 21, and 22. The RF signal, Ea+Eb+Ec+Ed, which is the output of the summing amplifier 22, is converted into a binary pulse train by an RF unit 23 and converted into digital data by a clock signal synchronized with the binary signal. The original disc information and copy protection information are obtained from the digital data by an ECC & demodulator 24.

The disc information and copy protection information encoded in straight pits can be read in the same way that the main data recorded in the data zone is read.

The disc information may include a disc information ID, a disc information format, a disc type ID, disc size/version, etc, as shown in FIG. 9. An exemplary 3-byte disc type ID indicative of the type of the optical disk can be recorded in the BCA as 2-bit data, as shown in FIG. 10.

For example, if the 2-bit data is 00b, the corresponding optical disk is a BD-RE. If the data is 01b, the corresponding optical disk is a one-time recordable BD-R. If the data is 10b, the corresponding optical disk is a BD-ROM.

The disc information size and a flag indicating whether it is the last disc information can be assigned to a reserved field of the disc information.

FIG. 11 illustrates a schematic diagram of a general optical disk reproducing apparatus including an optical pickup 30, a video disc play (VDP) system 31, and a D/A converter 32. Once an optical disk is loaded, the VDP system 31, which performs signal processing and servo control, detects the disc type information recorded in the BCA and performs appropriate servo initialization according to the detected disc type.

Where the disc information size and a flag indicating whether it is the last disc information are assigned to a reserved field, the disc information and copy protection information recorded in the PIC zone can be detected more accurately using the information in the reserved field.

In another exemplary embodiment, it is possible that a transition zone for separately detecting the disc information and the copy protection information is allocated to the PIC zone.

If the copy protection information is encrypted and encoded in straight pits, the VDP system 31 detects the decryption key encoded in wobbled pits in the PIC zone as described in FIG. 7, decrypts the copy protection information read from the straight pits, and stores the decrypted copy protection information. When the main data recorded in the data zone is reproduced, the main data is decrypted using the stored copy protection information.

The high-density, read-only, and/or optical disk and disc information recording method therefore in accordance with exemplary embodiments of the invention may repeatedly record important information required for the protection of the contents recorded on the disk and encode the information in wobbled pits, thereby enhancing data reliability and preventing illegal copying of the contents of the disk.

Although exemplary embodiments of the present invention have been described in conjunction with a high-density, read-only recording medium, the teachings of the present invention are also applicable to other recording media, such as recordable, rewritable, or rewritable once media and methods and apparatuses associated therewith, as would be known to one of ordinary skill in the art.

Although certain exemplary embodiments of the present invention have been disclosed, it is noted that the present invention may be embodied in other forms without departing from the spirit or essential characteristics thereof. The exemplary embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims, and all changes that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. 

What is claimed is:
 1. A non-transitory recording medium including control information required for recording or reproducing data on or from the recording medium and copy protection information, the copy protection information being key information for use in generating and/or processing copy-protected data, wherein the control information and the copy protection information are recorded separately, the copy protection information is repeated in data units including at least a first data unit and a second data unit, a format of the first data unit including the copy protection information is different from a format of the second data unit including the copy protection information, and at least one of the copy protection information of the first data unit and the copy protection information of the second data unit is formed as a wobbled pattern, wherein the first data unit is different from the second data unit with respect to a modulation method, wherein key information of the copy protection information in the first data unit is the same as key information of the copy protection information in the second data unit.
 2. The non-transitory recording medium according to claim 1, wherein the control information further include indicating information to indicate whether or not the recording medium contains the copy protection information.
 3. The non-transitory recording medium according to claim 2, wherein the indicating information and/or the copy protection information are formed by phase modulated method.
 4. The non-transitory recording medium according to claim 1, wherein the at least one of the copy protection information of the first data unit and the copy protection information of the second data unit is within a lead-in area of the recording medium.
 5. The non-transitory recording medium according to claim 1, wherein the first data unit or the second data unit comprises a plurality of address units, each of which comprises a plurality of data frames, wherein the copy protection information is recorded in each first data frame.
 6. The non-transitory recording medium according to claim 1, wherein the copy protection information is copied to an area of the recording medium separate from the control information.
 7. The non-transitory recording medium according to claim 6, wherein the copy protection information is copied to the area within a lead-in area of the recording medium.
 8. The non-transitory medium according to claim 1, wherein the control information includes at least medium size information, medium structure information, and data zone allocation information.
 9. A method of recording or reproducing data on or from a recording medium, comprising: (a) utilizing control information required for recording or reproducing data on or from the recording medium, the step (a) further including utilizing copy protection information, the copy protection information being key information for use in generating and/or processing copy protected data, the copy protection information being recorded in an area of the recording medium separately from the control information; and (b) recording or reproducing the copy-protected data based on the copy protection information, wherein the copy protection information is repeated in data units including at least a first data unit and a second data unit, a format of the first data unit including the copy protection information is different from a format of the second data unit including the copy protection information, and at least one of the copy protection information of the first data unit and the copy protection information of the second data unit is formed as a wobbled pattern, wherein the first data unit is different from the second data unit with respect to a modulation method, wherein key information of the copy protection information in the first data unit is the same as key information of the copy protection information in the second data unit.
 10. The method of claim 9, wherein the step (a) further utilizes indicating information indicating whether or not the recording medium contains the copy protection information.
 11. The method of claim 10, wherein the indicating information and/or the copy protection information are formed by phase modulated method.
 12. The method of claim 10, wherein the step (a) includes a step of (a′) detecting the copy protection information if the indicating information indicates the recording medium contains the copy protection information.
 13. The method of claim 9, wherein the step (b) records the copy-protected data based on the copy protection information and the control information.
 14. The method of claim 9, wherein the at least one of the copy protection information of the first data unit and the copy protection information of the second data unit is within a lead-in area of the recording medium.
 15. The method of claim 9, wherein the first data unit or the second data unit comprises a plurality of address units, each of which comprises a plurality of data frames, wherein the copy protection information is recorded in each first data frame.
 16. The method of claim 9, wherein the control information includes at least medium size information, medium structure information, and data zone allocation information.
 17. An apparatus for reproducing data from a recording medium, comprising: pick-up unit configured to read data from the recording medium, and a controller configured to control the pick-up unit to detect Control information and copy protection information recorded in an area of the recording medium separated from the control information, the control information being required for reproducing data on the recording medium, the copy protection information being key information for use in generating and/or processing copy protected data, wherein the controller is configured to control the pick-up unit to detect the copy protection information from at least one of data units, the copy protection information being repeated in data units including at least a first data unit and a second data unit, a format of the first data unit including the copy protection information being different from a format of the second data unit including the copy protection information, at least one of the copy protection information of the first data unit and the copy protection information of the second data unit being formed as a wobbled pattern, wherein the first data unit is different from the second data unit with respect to a modulation method, wherein key information of the copy protection information in the first data unit is the same as key information of the copy protection information in the second data unit.
 18. The apparatus according to claim 17, wherein the controller is configured to control the pick-up unit to detect indicating information for indicating whether the recording medium contains the copy protection information from the first area, the indication information being formed as a wobbled pattern.
 19. The apparatus according to claim 18, wherein the pick-up unit is configured to detect the copy protection information and the indication information by a push-pull method.
 20. The apparatus according to claim 19, wherein the pick-up unit is configured to detect the at least one of the copy protection information of the first data unit and the copy protection information of the second data unit from a lead-in area of the recording medium.
 21. The apparatus according to claim 19, further comprising: a data processor configured to process data read based on the control information and the copy protection information.
 22. The apparatus according to claim 17, wherein the control information includes at least medium size information, medium structure information, and data zone allocation information.
 23. An apparatus for recording data on a recording medium, comprising: a pick-up unit configured to read data from and record data on the recording medium; and a controller configured to utilize control information required for recording or reproducing data on or from the recording medium and copy protection information being key information for use in generating and/or processing copy protected data and to control the pick-up unit to record the copy protected data based on the copy protection information and the control information, wherein the copy protection information is recorded in an area of the recording medium separated from the control information, the copy protection information is repeated in data units including at least a first data unit and a second data unit, a format of the first data unit including the copy protection information being different from a format of the second data unit including the copy protection information, and at least one of the copy protection information of the first data unit and the copy protection information of the second data unit is formed as a wobbled pattern, wherein the first data unit is different from the second data unit with respect to a modulation method, wherein key information of the copy protection information in the first data unit is the same as key information of the copy protection information in the second data unit.
 24. The apparatus of claim 23, wherein the controller is configured to further utilize indicating information indicating whether or not the recording medium contains the copy protection information.
 25. The apparatus of claim 24, wherein the pick-up unit is configured to detect the copy protection information and the indication information by a push-pull method. 